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Chubu Univ. Aichi Jpn | 論文
- The Estimation of Tc for the Superconductivity on the Ultra-High Magnetic Field in the Strong Electron-Phonon Coupling (高温超伝導体に関するETLワ-クショップ〔英文〕) -- (Lattice Anomalies and Mechanism of High-Tc)
- Characterization of a Thermostable Family 10 Endo-Xylanase (XynB) from Thermotoga maritima That Cleaves p-Nitrophenyl-β-D-Xlyloside
- Transcriptional Analysis of the Escherichia coli mreBCD Genes Responsible for Morphogenesis and Chromosome Segregation
- Analyses of Bifidobacterial Glycosidases Involved in the Metabolism of Oligosaccharides
- Prodigiosin 25-C and Metacycloprodigiosin Suppress the Bone Resorption by Osteoclasts
- Pyroelectric Characteristics of Pb(Zr,Ti)O3 Thin Films Grown by the MOCVD Method
- Concanamycin B, a Vacuolar H^+-ATPase Specific Inhibitor Suppresses Bone Resorption in Vitro
- Kinetic Studies on the Hydrolysis of N-Acetylated and N-Deacetylated Derivatives of 4-Methylumbelliferyl Chitobioside by the Family 18 Chitinases ChiA and ChiB from Serratia Marcescens
- IPMSM Position Sensorless Drives Using Robust Adaptive Observer on Stationary Reference Frame
- Substrate Specificity of the N, 6-ο-Diacetylmuramidase from Streptomyces globisporus
- An Investigation of the pH-Activity Relationships of Cex, a Family 10 Xylanase from Cellulomonas fimi : Xylan Inhibition and the Influence of Nitro-Substituted Aryl-β-D-Xylobiosides on Xylanase Activity
- グライコシンターゼ化による反転型加水分解酵素のグリコシド合成触媒への変換
- RNase G-Dependent Degradation of the eno mRNA Encoding a Glycolysis Enzyme Enolase in Escherichia coli(Microbiology & Fermentation Technology)
- Observation of Low Chirp Modulation in Long Wavelength InGaAs/InAlAs Multiple-Quantum-Well Optical Modulators
- Free Vibrations of Symmetrically Laminated Composite Plates
- Very-High-Allowability of Incidental Optical Power for Polarization-Insensitive InGaAs/InAlAs Multiple Quantum Well Modulators Buried in Semi-Insulating InP
- Increased Saturation Intensity and High-Input-Power Allowable InGaAs/InAlAs MQW Modulators Buried in Semi-Insulating InP
- Phytochemicals That Stimulate Osteoblastic Differentiation and Bone Formation
- Pharmacological Topics of Bone Metabolism : Antiresorptive Microbial Compounds That Inhibit Osteoclast Differentiation, Function, and Survival
- Requirement of osteoblastic cells for the fusion of preosteoclasts